Statistical card machine



Mal-ch15, .1938. r w, GALYQN I 2,110,858

STATI STICAL CARD MACHINE Filed Sept. 18, 1934 v v 4 Sheets-Sheet 1 INVENTOR.

ATTORNEY.

Much-l5, 1938. w J w GALYON 2,110,858

I STATISTICAL CARD MACHINE Filed Sept. 18, 1934 4 Sheets-Sheet 2 INVENTOR. W- WWW/Z 56 1 ATTORNEY.

March 15, 1938. J. w. GALYON 2,110,s5a

STATISTICAL CARD MACHINE Filed Sept. 18, 1934 4 Sheets-Sheet 3 FIGS. 32

swan: afihzz'izuze 37 1 II I I I l I c051 snumrmc: QUANTITY cuss "on? Mr non? OFFICE no.

0 E i o l o i a o o: o {o z p o o t l o 1 a o o a 4 I o l o o: o 5 l o I as 6 0 i 1 s 7 1 o 0 1 a g I q l I a o a l L o l J 4' I Q I 0, ll '7 I I! II II J! A) i INVENTOR.

ATTORNEY.

March 15, 1938. w. GALYON 2,110,858

STATISTICAL CARD MACHINE Filed Sept. 18, 1934 V 4 Sheets-Sheet 4.

66 group classification, and soon.

moms-n... 15,1938

UNITED STATES r 2,110,858 srsrrs'ricsr. cm mcnms John W. Galyon. Springfield. 111.. assignor to Inonal Business Machines ternati Oorpora New York, N. 1., a corporation olNew York tlo . Application Bepternber 18. m4. Serial No. mszs This case relates to improvements in tabulating machines in which perforated record cards control mechanism to perform bookkeeping operations. I l

I The perforations in the record cards represent A various data in accordance with their positions in card columns and as fixed by a selected code. The cards are run through the machine which includes an analyzer for reading or sensing the card perforations and controlling the accounting mechanism inaccordance with the analysis. The analyzer includes, in some types of machine, a

. "gang ,oi'pins arranged in columns, eachcolumn of pins correlated to and sensing a corresponding 18 card column. In other types, the analyzer in-. cludes a row of brushes extending transversely of the line of travel-of the card, each brush of said row being correlated to and sensing a diiferent card column.

go In either type, the elements may per-- form their analysis by protruding through the card. perforations to closecircuits which govern machine operations. The control cards, as a rule contain forty-five or eightycolumns. To tabu- 25 late information, the machine usually'containsthree to seven banks of accumulators and type flexibility of control connections between the card V as analyzer and the banks of accounting elements.v Accordingly, it has been customary to provide.

plug connections between the'brushes and the p accounting elements.

By setting the plug connections variousb in the selected plug sockets, any desired card columns may'be'associated with any set of accounting elements. Further, plug conn cm. are usually provided for automatic con according to'group classifications, for listing of the Where a machine isicontrolled by group flcations, usuallyanupper card analyzer similar in structure to the lower cardanalyia is provided.

Theupperanalyseralsocontalnsasensingbrush- -60 for each card column but as a rule the lower analyzen alone controls the operation of accountingelements to tabulate the information on the cards. The diiiiculty with the pll'lssing means iorthe so selection of control connections between the card time and entails too concentratedan eflort.

torunitwlth themachinethroughthe selector unit.

vention. r A

classi- 2 Claims. 235-61.)

analyzer and the accounting devices is that there are so many individual wires tobe set and so many dlflerent' arrangements to governthe setting of the wires, that. unless the operator is, extremely skilled and experienced in the operas tion of'the machine, mistakeawill be made and 1 these occur even with the most skilled operators. Further, aside from the'possible errors which may occur, the plugging procedure occupies too much 10 Accordingly, objects-of the present invention are to provide means for simplifying the connections between the analyser brushes and accounting elements, to eliminate errors in variably associating the columns to the accounting elements, to perform the various selections with aluminium of time, and toindicate clearly, in a manner re- ..quiring no special skill, the operations required to associate'the desired columns with' the desired vaccounting elements.

. Another obiect is to provide such improved selecting means as an attachment to'anexisting machine to convert the latter'frcm a plugboard type to a quickly. settable multi-contact type. Other objects will appear from the following deseription'and from the drawings.

Fig. 1 is a front view of a tabulattng machine to which the attachment isapplied.

Fig. 2 is a front view of a column selector unit of the attachment.

1'18. 8 is a front detail view of acolumn'selecthe front plate of the attachment;-

Fig. 4 is a rarview/of a selector unit. I Fig. 5 is'a section along line H of Fig-1."

details or the contacts ofa column selector:

Fig. '1 iso view of a printing unit controlled by Fig. ashows a typical tsbulating card. and ,l'lg. 9 is a circuit diagram illustrative ofthe in- The invention will be explainedin connection with the tabulator disclosed in Patent No. 594 although, asiwill appear, the invention isflof more extended application in the'itabulating m, Referringtto Fig. 1, the machine has a plugboard I with several rows-of sockets. Sockets I! connect to the upper card reading brushes; sockets it to. the lower analyaingbrushes; sockets it tothe item'counting and printing.controls;

sockets I. to purel'yg'printing controls; sockets 2| to one side of automatic group control mech anism for changingmachine operation according to gmup ;classiiication; sockets 22' to? the so" "l 'igjisasectiononlineHofl lga showing opposite side of the group control mechanism; sockets 24 correspond to sockets 690 of Fig. 31 of Patent 1,822,594, referred to above, and are plugged, when desired, to sockets It for causing the group control item of the card to be indicated and listed or to sockets I! when group listing without indicating is desired and sockets 25 may I be selectively plug-connected to socket 28 for cutting out a portion of the group control mechanism; all as disclosed in the aforementioned patent.

Without the present attachment, typical selections are made as follows:

1. To select certain card columns to automatically control the machine, plug connections are made from those sockets l2 corresponding to the selected columns to sockets 20.

2. To complete above control selection, plug connections are made between sockets l4 and 22.

3. To complete said selection of machine control with group indication and printing, plug connections are made as in paragraph numbered 2, above, and additional plug connections are made between sockets l5 and 24.

4. To select columns for controlling item registering or printing and adding elements, plug connections are run between sockets i4 and I6.

5. To select columns for controlling merely the printing of items, plug connections are made between sockets I4 and II.

6. To omit automatic machine control by certain of the devices connected to sockets 20, a

plug connection is made between special socket 23 and one of sockets 23.

Each time a different inter-association of card columns to the various devices is desired, the plug connections must be individuallyand painstakingly readjusted and varied.

By utilizing the present invention the labor, time, and skill required in effecting the various adjustments noted above is largely eliminated.

As an illustration of the application of the invention, it will be described only in detail in connection with the lower analyzer brushes for performing the results noted in paragraphs numbered 2 and 5, above.

It will be clear, however, that the results noted in the other numbered paragraphs may be obtained in a similar manner.

Referring to Figs. 1 and 5, the present attachment comprises a box casing 30 the front wall 3| of which has bent lugs 32 engaging the machine frame and secured by screws 33 to the frame,

preferably above plugboard l0. In this manner, the attachment is carried by the machine frame at an angle thereto inclining downwardly and outwardly, thereby leaving a space between the rear wall 34 of the box casing and the front of the machine for the various connecting wires to pass downwardly to plugboard ii.

For illustration, the attachment is shown with three rotary column selectors or distributors A, B and C, although a greater or less number may be used, as desired. Each selector has forty-five circumferentially arranged contact studs 35 secured to and passing through the rear wall 34 of casing 30 so as to project on opposite sides of the rear wall. On the outer side of the rear wall, studs 35 of selector A are each soldered to a plug connection 34. The studs 35 of selector A are connected by suitable leads 350 to the corresponding studs 35 of selector B and the studs of the latter are similarly connected to the studs 35 of selector A. Thus, corresponding studs 35 of the selectors are connected in parallel to a common plug wire 36. These plug connections first extend downwardly in cable form and then spread apart in a single row passing through a bar 31. The bar is inscribed opposite each connection 35 with the number of the column to which the connection corresponds. Guided by the indications on bar 31, the connections 36 are preliminarily plugged to the correspondingly numbered sockets [4 of plugboard it). Thus, corresponding studs 35 of the selectors are connected to the same plug socket i4 and each such stud corresponds to the card column denoted by the plug socket. I

The contact studs 35 of each selector, at the inner side of the rear wall 34 are selectively engaged by eight contact pins 38. .These pins are slidably carried by small brass tubes 39 imbedded in a Bakelite disk 40 which is fixed to a shaft 4| journaled in the front and rear walls of casing 30.

Springs 42 inside tubes 39 constantly press pins 38 into firm engagement with contact studs 35. The outer ends of the eight tubes 39 are engaged by leaf spring terminals 43 of eight wires 44 which are gathered in a cable 45 secured by bracket 48' to the front of Bakelite disk 40 and wound around shaft 4i. The ends of wires 44 opposite terminals 43 individually lead into eight snap switches 45 arranged in a single horizontal row and secured to the front wall 3i. Projectingexterioriy of the front wall are the finger levers 41 for opening or closing switches 45. Leading out of the switches 46 are eight plug wires 48. According to the present example, the plug wires 4| leading out from selector A are plugged into one group of eight sockets l8 of plugboard i0 and the plug wires from selector B are plugged into the next group of eight sockets l8. Each such group of sockets i8 is connected to a. separate bank of devices (magnets 68) for controlling a bank of multi-denominational-order item manifesting members (printers 16), to manifest a multi-denominational value, as will be brought out hereinafter in connection with the circuit diagram, Fig.9.

The plug wires 48 from selector C are plugged into the group of eight sockets 22 which are connected to a bank of automatic machine control devices (magnets 82, Fig. 9).

Shaft 4| of each selector has fixed thereto in front of casing 30, a hand knob 50 and an index plate 5| with indications 1 to 8, reading counterclockwise. Each latter indication corresponds to a plug connection 48.

concentrically disposed about each shaft 4i, the front of casing 30 is inscribed with a column indicating chart comprising a graduated row 52 of indications 1 to 45, reading clockwise. Each such indication corresponds to a different card column and a different plug wire 36.

By rotating shaft 4| to a selected position, any group of eight successive card columns may be connected to the eight successive plug wires 48.

- Thus, if card columns I to 8 are to be connected to the plug wires 48, the shaft 4i is rotated until number 8 on the index plate 5i is in line with number 1 of the graduated row 52. In this position, the eight pins as connected to plug wires 44 are engaging the first eight contact studs 35 connected to the plug wires 36. Also since the unit order card column of a group is the one furthest to the right, which in the selected example is number 8, the units order plug wire 48 or number 1 should coact with this column. For this reason, the numbers on the index plate 5| run oppositelyto the numbers of the are uated row 52. v

Any of the columns selected may be dissociated from a plug wire 48 by opening the switch it from which the wire 48 leads out;

Each shaft 4i carries outside the rear wall 34 of the casing a toothed disk I with which an impositive holding pawl 55 coacts. The pawl is pivoted to wall fl and held in engagement with disk 54 by a spring I6 to thereby impositively retain the shaft I in any position to which it has been rotated. I t

The manner in which the above mechanism coacts with the accounting mechanism will now be explained with reference to the circuit diagram, Fig. 9. I

Cards D are fed one at a time from a supply magazine 60. The issuing card is fed by feed rolls Ii successively through upper and lower analyzers. Y

A row of forty-five perforation sensing'or card analyzing elements or devices 62, insulated from each other, is provided inthe upper analyzer, one device for each card column, and a corresponding row of perforation sensing devices 63 in the lower analyzer. A sensing device of one row is in the same line inthe direction of travel of the cards as a corresponding sensing device in the other row so that these alined devices will sense the same card column. Lower sensing, devices GI .are connected to wires 84 which lead to plug sockets ll in plugboard l9. Plugged into sockets it are the forty-five plug wires 36 common to selectors A, B, and C. Leading out from selectors A and B are plug wires ll which are plugged into sockets ll of theplugboard. Wired to sockets ll are banks of magnets 88 connected to one side 51 of the current supply. When a sensing device if encounters a perforation in its card column, it engages a wire brush LB carried by a common conductor 89 and a circuit is formed as follows: From one side 61 .of thecurrent supply, through magnet 86 to plug socket it, through plug connection 48 to switch 48, through wire 44, contact pin 38, the stud fl engaged thereby, plug wire 96, socket ll, wire 84., device 83, a brush LB, conductor 89, wire 89, either of the cam contacts Hi 'or II- whichever is closed, card lever contacts 12, and through closed cam contacts II to the opposite side ll of the current supply- Energization of magnet 89 thereupon occurs to release a latch pawl 15 (Fig. 7) which engages; the cyclically movable type carrier 16 and stops it in a differential position. The'carrier l slid,- ably carries aseries of type bars 11 and when the carrier is stopped in a diflerential position, the

type bar 11 corresponding to the value of theperforation sensed by the card sensing device 88 is located in printing position.

' I At the end of the cycle, a hammerv 19 strikes 'typebar 'II to print or register the value of the "perforation on a record sheet I9. Details of the printingl or item registering mechanism may be obtained from aforementioned Patent No. 1,822,594.

When 'a change in card group occurs. the operation of the'machine is automatically varied and various operations occur suchas total taking and res'etting. The control of the machine upon I a group change is eflected by deenergization of magnets 92 (Fig. 9) when group perforations in the upper andlower cards do not agree. There is one magnet 02 for each group control column of the card. One side of'the magnet leads to one of the plug a in series with eight 4 selected upper card devices If sensing the selected group control columns of the upper cards. The

other side of the magnet 92 leads to one of the sockets 22 into which are inserted the eight plug wires 48 leading out from selector 0. The indicator ii of the latter is adJusted so that .the contact pins 39 are engaged with studs 3! which correspond to the group control columns. The plug wires extending from selector C are connected to the lower card devices I. When there is no change in group classification of the cards, alined card sensing devices 02 and 02-, respectively of the upper and lower analyzers. simultaneously sense perforations in each group control card column and form a circuit as follows:

From line 81 through the common conductor 62!), the upper wire brush UB carried bysaid conductor, the upper sensing device "engaging the brush UB through the perforation in a group control column, wire N connected to the brush,

' plug socket |2, a suitable connection 8! to plug socket f0, magnet 82, plug socket 22, plug wire 48 of .the selector C, through the selector to a plug wire 38 thereof, a socket ll, wire 64, live lower sensing device 03, the brush LB engaging with the latter device through a perforation, conductor 68, and in the same manner as in the previously described circuit to the line It of the current supply.

ing the card reading cycle, the upper and lower analyzers will feel identical perforations in each group control column of the successive cards and by the end of the card cycle will have energized each magnet 82 to close all the serially connected ;,.contacts 98 which are latched in position until near the end of the card cycle. With these conmagnet" (at bottom of Fig. 9), a relay 88, previously closed armature contacts "a of relay 88, line 90, cam contacts 9i (closed after the card analyzing period), line 92, serially through closed contacts 88, through line 98, and through cam contacts 11 to line ll. 1

Motor control relay contacts 81a in the following motor circuit closed: From line 81, through motor TM (at top of Fig. 9), clutch magnet 98. relay 91, previously closed armature contacts 91a,-upper card lever contacts 99, relay contacts 91a, stop key contacts SP, and through cam contacts II to line It.

'Clutch magnet 90 holds clutch I00 '(Fig. 9) engaged with a driving shaft Ill operated by motor TM. The driving shaft actuates the card feed picker: Oil and feed rolls 8|.

When'any one of the contacts II fails to close during a card cycle because of a change in-group data, of the successive cards. the circuit through ,contacts 08 cannot be made and motor control relay 81 is deenergized, causing contacts 811: to

91 when energized keeps If the card group does not change, then dur- 1 through selector A to the accounting control devices comprising printing control magnets 66 of one bank of printing means; any of the card columns may be selectively connected to the second bank of printing means through selector B; and any of the columns may be selected for connection to the accounting control devices comprising the banks of group control magnets 82. Further, if the same column is to be connected to two different banks of printers as is sometimes desired (see Patent No. 1,950,475), this can easily be done by setting the indications of indexes 5| of selectors A and B in alinement with the same numbers on graduated rows 52 of the selectors.

If any of the columns are to be 'cut out of control, the switch 46 is opened. Thus, if only five column figures are to be printed, then the last three switches 45, from the left, of a selector are opened, thereby cutting out the three higher orders of printing elements. If an intermediate card column of a selected group of columns is to be cut out of control an intermediate switch 46 is opened.

While there has been shown and described and pointed out the fundamental novel features of the invention as applied to a single modification, it will be understood that various omissions and substitutions and changes in the form and details of the device illustrated and in its operation may be made by those skilled in the art without departing from the spirit of the invention. It is the intention therefore to be limited only as indicated by the scope of the following claims.

What is claimed is as follows:

1. In an accounting machine for handling record cards having columns of value designations and including card analyzing devices, each for analyzing one card column for designations and a bank of multl-denominational order accounting devices; the combination of a plurality of contact elements corresponding to the card columns and connected to the card analyzing devices, a series of contact members having a denominational order relationship and each order member being operatively connected to the corresponding order of said bank of accounting devices, said members being commonly and selectively settable into engagement with a corresponding series of any successive ones of said elements of the same number as the members to thereby connect the members with the corresponding series of card columns, a common carrier for said members, means mounting the carrier for adjustment to jointly shift the series of members into engage- ,ment with any desired series of elements, a column indicating scale having column indicating numbers progressively increasing in one direction, an index having numbers corresponding to the orders of said members and progressively increasing in a direction opposite to aforesaid, said index being operated by adjustment of the carrier to indicate on the scale the columns selected by the members, and circuits closed through the members and selected elements upon the card analyzing devices sensing designations in the selected card columns for controlling operation of the orders of the bank of accounting devices according to the analysis of the values of the selected series of columns.

2. In an accounting machine for handling record cards having columns of item designations and including a plurality of card analyzing devices each for analyzing one of the card columns for designations and a bank of accounting control devices; the combination of a plurality of elements connected to the card analyzing devices and corresponding to the different card columns, a number of members connected to the control devices of the aforesaid bank and selectively settable as a unit into coaction with a corresponding number of any successive ones of said elements to thereby connect the members with a series of columns corresponding to the selected elements, a common shaft for said members, means rotatably mounting the shaft for adjustment at will to jointly shift the members along the elements into co-action with the desired elements, indicating means comprising an index scale having an arcuate set of figures corresponding. to the different orders of the aforesaid bank of control devices, and a column scale with an arcuate row of column figures, said index scale and column scale being shiftable relatively to each other by adjustment of said shaft to show by the correlation of the index scale figures with the column scale figures which columns are selected to control which control devices of said bank.

JOHN W. GALYON. 

